Asian Journal of Atmospheric Environment (Jun 2024)
Air quality monitoring device to mitigate the spread of COVID-19 in educational buildings
Abstract
Abstract The COVID-19 pandemic brought significant consequences on healthcare systems, economy, and politics. Nowadays, we know that the pathogen responsible for COVID-19 is transmitted mainly by aerosol droplets exhaled by infected individuals, which remain suspended in indoor air. There has been widespread interest in monitoring the $$CO_2$$ C O 2 levels in indoor spaces since an infected patient exhales $$CO_2$$ C O 2 and infectious aerosols when breathing. So, we designed and built an Air Quality Monitoring Device (AQMD) that measures and analyzes the levels of $$CO_2$$ C O 2 and particulate matter in the classrooms of a university with the aim of mitigating the spread of COVID-19. We divided the AQMD design into 2 phases: (i) data measurement and (ii) estimation of infection risk. Specifically, we measured the air quality in 3 classrooms of a university during different types of activities. Using these data, we calculated the recommended $$CO_2$$ C O 2 threshold for our classroom setting and estimated the probability of COVID-19 infection of a susceptible person. Our research shows that indoor $$CO_2$$ C O 2 concentrations and the probability of COVID-19 infection are influenced mainly by the type of activity and the number of windows open; besides, the number of students does not significantly impact the indoor $$CO_2$$ C O 2 concentrations levels because the range of students in the test scenario (18 to 31) was relatively small.
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